Fundamental Concepts And Units Of Measurement / 1: |
Chemistry Is Important For Anyone Studying The Sciences / 1.1: |
The Scientific Method Helps Us Build Models Of Nature / 1.2: |
Matter Is Composed Of Elements, Compounds, And Mixtures / 1.3: |
Properties Of Matter Can Be Classified In Different Ways / 1.4: |
Measurements Are Essential To Describe Properties / 1.5: |
Measurements Always Contain Some Uncertainty / 1.6: |
Units Can Be Converted Using The Factor-Label Method / 1.7: |
Density Is A Useful Intensive Property / 1.8: |
Tools For Problem Solving |
Questions, Problems, And Exercises |
Elements, Compounds, And Chemical Reactions / 2: |
Elements And Atoms Are Described By Daltona??s Atomic Theory / 2.1: |
Atoms Are Composed Of Subatomic Particles / 2.2: |
The Periodic Table Is Used To Organize And Correlate Facts / 2.3: |
Elements Can Be Metals, Nonmetals, Or Mettaloids / 2.4: |
Formulas And Equations Describe Substances And Their Reactions / 2.5: |
Molecular Compounds Contain Neutral Particles Called Molecules / 2.6: |
Ionic Compounds Are Composed Of Charged Particles Called Ions / 2.7: |
The Formulas Of Many Ionic Compounds Can Be Predicted / 2.8: |
Molecular And Ionic Compounds Are Named Following A System / 2.9: |
The Mole: Relating The Microscopic World Of Atoms To Laboratory Measurements / 3: |
The Mole Conveniently Links Mass To Number Of Atoms Of Molecules / 3.1: |
Chemical Formulas Relate Amounts Of Substances In A Compound / 3.2: |
Chemical Formulas Can Be Determined From Experimental Mass Measurements / 3.3: |
Chemical Equations Link Amounds Of Substances In A Reaction / 3.4: |
The Reactant In Shortest Supply Limits The Amount Of Product That Can Form / 3.5: |
The Prdicted Amount Of Product Is Not Always Obtained Experimentally / 3.6: |
Bringing It Together Chapters 1-3 |
Reactions Of Ions And Molecules In Aqueous Solutions / 4: |
Special Terminology Applies To Solutions / 4.1: |
Ionic Compounds Conduct Electricity When Dissolved In Water / 4.2: |
Acids And Bases Are Classes Of Compounds With Special Properties / 4.3: |
Naming Acids And Bases Follows A System / 4.4: |
Ionic Reactions Can Often Be Predicted / 4.5: |
The Composition Of A Solution Is Described By Its Concentration / 4.6: |
Molarity Is Used For Problems In Solution Stoichiometry / 4.7: |
Chemical Alaysis And Titration Are Applications Of Solution Stoichiometry / 4.8: |
Oxidation-Reduction Reactions / 5: |
Oxidation-Reduction Reactions Involve Electron Transfer / 5.1: |
The Ion-Electron Method Creates Balanced Net Ionic Equations For Redox Reactions / 5.2: |
Metals Are Oxidized When They React With Acids / 5.3: |
A More Active Metal Will Displace A Less Active One From Its Compounds / 5.4: |
Molecular Oxygen Is A Powerful Oxidizing Agent / 5.5: |
Redox Reactions Follow The Same Stoichiometric Principles As Other Reactions / 5.6: |
Energy And Chemical Change / 6: |
An Object Has Energy If It Is Capable Of Doing Work / 6.1: |
Internal Energy Is The Total Energy Of An Objecta??s Molecules / 6.2: |
Heat Can Be Determined By Measuring Temperature Changes / 6.3: |
Energy Is Absorbed Or Released During Most Chemical Reactions / 6.4: |
Heats Of<$$$> / 6.5: |
Fundamental Concepts And Units Of Measurement / 1: |
Chemistry Is Important For Anyone Studying The Sciences / 1.1: |
The Scientific Method Helps Us Build Models Of Nature / 1.2: |